Trac is written in the Python programming language and needs a database, SQLite, PostgreSQL, or MySQL. For HTML rendering, Trac uses the Jinja2 templating system, though Genshi templates are supported until Trac 1.5.1.
Trac can also be localized, and there is probably a translation available in your language. If you want to use the Trac interface in other languages, then make sure you have installed the optional package Babel. Pay attention to the extra steps for localization support in the Installing Trac section below. Lacking Babel, you will only get the default English version.
If you're interested in contributing new translations for other languages or enhancing the existing translations, please have a look at TracL10N.
These are generic instructions for installing and setting up Trac. While you may find instructions for installing Trac on specific systems at TracInstallPlatforms, please first read through these general instructions to get a good understanding of the tasks involved.
To install Trac, the following software packages must be installed:
- Python, version >= 3.5
- setuptools, version > 5.6
- Jinja2, version >= 2.9.3
You also need a database system and the corresponding Python bindings. The database can be either SQLite, PostgreSQL or MySQL.
You already have the SQLite database bindings bundled with the standard
distribution of Python (the sqlite3 module).
Optionally, you may install a newer version of pysqlite than the one provided by the Python distribution. See PySqlite for details.
You need to install the database and its Python bindings:
- PostgreSQL, version 9.1 or later
- psycopg2, version 2.5 or later
See DatabaseBackend for details.
Trac works well with MySQL, provided you use the following:
Given the caveats and known issues surrounding MySQL, read carefully the MySqlDb page before creating the database.
Subversion, 1.14.x or later and the corresponding Python bindings.
There are pre-compiled SWIG bindings available for various platforms. See getting Subversion for more information.
Note:
- Trac doesn't use PySVN,
nor does it work yet with the newer
ctype-style bindings. - If using Subversion, Trac must be installed on the same machine. Remote repositories are not supported.
For troubleshooting information, see the TracSubversion page.
Git 1.5.6 or later is supported. More information is available on the TracGit page.
Support for other version control systems is provided via third-party plugins. See PluginList#VersionControlSystems and VersionControlSystem.
A web server is optional because Trac is shipped with a server included, see the Running the Standalone Server section below.
Alternatively you can configure Trac to run in any of the following environments:
- Apache with
- mod_wsgi, see TracModWSGI and ModWSGI IntegrationWithTrac.
- mod_python 3.5.0, see TracModPython
- a FastCGI-capable web server (see TracFastCgi)
- an AJP-capable web server (see TracOnWindowsIisAjp)
- Microsoft IIS with FastCGI and a FastCGI-to-WSGI gateway (see IIS with FastCGI)
- a CGI-capable web server (see TracCgi), but usage of Trac as a cgi script is highly discouraged, better use one of the previous options.
- Babel, version >= 2.2, needed for localization support
- pytz to get a complete list of time zones, otherwise Trac will fall back on a shorter list from an internal time zone implementation. Installing Babel will install pytz.
- docutils, version >= 0.14, for WikiRestructuredText.
- Pygments, version >= 1.0, for syntax highlighting.
- Textile, version >= 2.3, for rendering the Textile markup language.
- passlib on Windows to decode
htpasswd
formats
other than
SHA-1. - pyreadline on Windows for trac-admin command completion.
Please refer to the documentation of these packages to find out how they are best installed. In addition, most of the platform-specific instructions also describe the installation of the dependencies. Keep in mind however that the information there probably concern older versions of Trac than the one you're installing.
The trac-admin command-line tool, used to create and maintain project environments, as well as the tracd standalone server are installed along with Trac. There are several methods for installing Trac.
It is assumed throughout this guide that you have elevated permissions
as the root user or by prefixing commands with sudo. The umask
0002 should be used for a typical installation on a Unix-based
platform.
pip is the modern Python package manager and is included in Python
distributions. pip will automatically resolve the required
dependencies (Jinja2 and setuptools) and download the latest packages
from pypi.org.
You can also install directly from a source package. You can obtain the
source in a tar or zip from the
TracDownload
page. After extracting the archive, change to the directory containing
setup.py and run:
$ pip install .
pip supports numerous other install mechanisms. It can be passed the
URL of an archive or other download location. Here are some examples:
Install the latest development version from a tar archive:
$ pip install https://download.edgewall.org/trac/Trac-latest-dev.tar.gz
Install the unreleased 1.4-stable from subversion:
$ pip install svn+https://svn.edgewall.org/repos/trac/branches/1.4-stable
Install the latest development preview (not recommended for production installs):
$ pip install --find-links=https://trac.edgewall.org/wiki/TracDownload Trac
The optional dependencies can be installed from PyPI using pip:
$ pip install babel docutils pygments textile
The optional dependencies can alternatively be specified using the
extras keys in the setup file:
$ pip install Trac[babel,rest,pygments,textile]
rest is the extra that installs the docutils dependency.
Include mysql or psycopg2-binary in the list if using the MySQL
or PostgreSQL database.
Additionally, you can install several Trac plugins from PyPI (listed here) using pip. See TracPlugins for more information.
On Windows, Trac can be installed using the exe installers available on the TracDownload page. Installers are available for the 32-bit and 64-bit versions of Python. Make sure to use the installer that matches the architecture of your Python installation.
Trac may be available in your platform's package repository. However, your package manager may not provide the latest release of Trac.
A Trac environment is the backend where Trac stores information like wiki pages, tickets, reports, settings, etc. An environment is a directory that contains a human-readable configuration file, and other files and directories.
A new environment is created using trac-admin:
$ trac-admin /path/to/myproject initenv
trac-admin will prompt
you for the information it needs to create the environment: the name of
the project and the database connection
string.
If you're not sure what to specify for any of these options, just press
<Enter> to use the default value.
Using the default database connection string will always work as long as you have SQLite installed. For the other database backends you should plan ahead and already have a database ready to use at this point.
Also note that the values you specify here can be changed later using TracAdmin or directly editing the conf/trac.ini configuration file.
Finally, make sure the user account under which the web front-end runs
will have write permissions to the environment directory and all the
files inside. This will be the case if you run
trac-admin ... initenv as this user. If not, you should set the
correct user afterwards. For example on Linux, with the web server
running as user apache and group apache, enter:
$ chown -R apache:apache /path/to/myproject
The actual username and groupname of the apache server may not be
exactly apache, and are specified in the Apache configuration file
by the directives User and Group (if Apache httpd is what
you use).
Important
Warning: Please only use ASCII-characters for account name and project path, unicode characters are not supported there.
After having created a Trac environment, you can easily try the web interface by running the standalone server tracd:
$ tracd --port 8000 /path/to/myproject
Then, open a browser and visit http://localhost:8000/. You should
get a simple listing of all environments that tracd knows about.
Follow the link to the environment you just created, and you should see
Trac in action. If you only plan on managing a single project with Trac
you can have the standalone server skip the environment list by starting
it like this:
$ tracd -s --port 8000 /path/to/myproject
Trac provides various options for connecting to a "real" web server:
- FastCGI
- Apache with mod_wsgi
- Apache with mod_python
- CGI (should not be used, as the performance is far from optimal)
Trac also supports AJP which may be your choice if you want to connect to IIS. Other deployment scenarios are possible: nginx, uwsgi, Isapi-wsgi etc.
Application scripts for CGI, FastCGI and mod-wsgi can be generated using
the trac-admin deploy
command:
deploy <directory>
Extract static resources from Trac and all plugins
Grant the web server execution right on scripts in the cgi-bin
directory.
For example, the following yields a typical directory structure:
$ mkdir -p /var/trac $ trac-admin /var/trac/<project> initenv $ trac-admin /var/trac/<project> deploy /var/www $ ls /var/www cgi-bin htdocs $ chmod ugo+x /var/www/cgi-bin/*
Without additional configuration, Trac will handle requests for static resources such as stylesheets and images. For anything other than a TracStandalone deployment, this is not optimal as the web server can be set up to directly serve the static resources. For CGI setup, this is highly undesirable as it causes abysmal performance.
Web servers such as Apache allow you to create Aliases to resources, giving them a virtual URL that doesn't necessarily reflect their location on the file system. We can map requests for static resources directly to directories on the file system, to avoid Trac processing the requests.
There are two primary URL paths for static resources: /chrome/common
and /chrome/site. Plugins can add their own resources, usually
accessible at the /chrome/<plugin> path.
A single /chrome alias can used if the static resources are
extracted for all plugins. This means that the deploy command
(discussed in the previous section) must be executed after installing or
updating a plugin that provides static resources, or after modifying
resources in the $env/htdocs directory. This is probably appropriate
for most installations but may not be what you want if, for example, you
wish to upload plugins through the Plugins administration page.
The deploy command creates an htdocs directory with:
common/- the static resources of Tracsite/- a copy of the environment'shtdocs/directoryshared- the static resources shared by multiple Trac environments, with a location defined by the[inherit]htdocs_diroption<plugin>/- one directory for each resource directory provided by the plugins enabled for this environment
The example that follows will create a single /chrome alias. If that
isn't the correct approach for your installation you simply need to
create more specific aliases:
Alias /trac/chrome/common /path/to/trac/htdocs/common Alias /trac/chrome/site /path/to/trac/htdocs/site Alias /trac/chrome/shared /path/to/trac/htdocs/shared Alias /trac/chrome/<plugin> /path/to/trac/htdocs/<plugin>
Assuming the deployment has been done this way:
$ trac-admin /var/trac/<project> deploy /var/www/trac
Add the following snippet to Apache configuration, changing paths to
match your deployment. The snippet must be placed before the
ScriptAlias or WSGIScriptAlias directive, because those
directives map all requests to the Trac application:
Alias /trac/chrome /var/www/trac/htdocs
<Directory "/var/www/trac/htdocs">
# For Apache 2.2
<IfModule !mod_authz_core.c>
Order allow,deny
Allow from all
</IfModule>
# For Apache 2.4
<IfModule mod_authz_core.c>
Require all granted
</IfModule>
</Directory>
If using mod_python, add this too, otherwise the alias will be ignored:
<Location "/trac/chrome/common"> SetHandler None </Location>
Alternatively, if you wish to serve static resources directly from your
project's htdocs directory rather than the location to which the
files are extracted with the deploy command, you can configure
Apache to serve those resources. Again, put this before the
ScriptAlias or WSGIScriptAlias for the .*cgi scripts, and adjust
names and locations to match your installation:
Alias /trac/chrome/site /path/to/projectenv/htdocs
<Directory "/path/to/projectenv/htdocs">
# For Apache 2.2
<IfModule !mod_authz_core.c>
Order allow,deny
Allow from all
</IfModule>
# For Apache 2.4
<IfModule mod_authz_core.c>
Require all granted
</IfModule>
</Directory>
Another alternative to aliasing /trac/chrome/common is having Trac
generate direct links for those static resources (and only those), using
the
trac.htdocs_location
configuration setting:
[trac] htdocs_location = http://static.example.org/trac-common/
Note that this makes it easy to have a dedicated domain serve those static resources, preferentially cookie-less.
Of course, you still need to make the Trac htdocs/common directory
available through the web server at the specified URL, for example by
copying (or linking) the directory into the document root of the web
server:
$ ln -s /path/to/trac/htdocs/common /var/www/static.example.org/trac-common
Some Python plugins need to be extracted to a cache directory. By
default the cache resides in the home directory of the current user.
When running Trac on a Web Server as a dedicated user (which is highly
recommended) who has no home directory, this might prevent the plugins
from starting. To override the cache location you can set the
PYTHON_EGG_CACHE environment variable. Refer to your server
documentation for detailed instructions on how to set environment
variables.
Trac uses HTTP authentication. You'll need to configure your web server
to request authentication when the .../login URL is hit (the virtual
path of the "login" button). Trac will automatically pick the
REMOTE_USER variable up after you provide your credentials.
Therefore, all user management goes through your web server
configuration. Please consult the documentation of your web server for
more info.
The process of adding, removing, and configuring user accounts for authentication depends on the specific way you run Trac.
Please refer to one of the following sections:
- TracStandalone#UsingAuthentication
if you use the standalone server,
tracd. - TracModWSGI#ConfiguringAuthentication
if you use the Apache web server, with any of its front end:
mod_wsgi,mod_python,mod_fcgiormod_fastcgi. - TracFastCgi if you're using another web server with FCGI support (Cherokee, Lighttpd, LiteSpeed, nginx)
TracAuthenticationIntroduction also contains some useful information for beginners.
Grant admin rights to user admin:
$ trac-admin /path/to/myproject permission add admin TRAC_ADMIN
This user will have an Admin navigation item that directs to pages for administering your Trac project.
Configuration options are documented on the TracIni page.
TracRepositoryAdmin provides information on configuring version control repositories for your project.
In addition to the optional version control backends, Trac provides several optional features that are disabled by default:
- Fine-grained permission policy
- Custom permissions
- Ticket deletion
- Ticket cloning
- Ticket changeset references
Once you have your Trac site up and running, you should be able to create tickets, view the timeline, browse your version control repository if configured, etc.
Keep in mind that anonymous (not logged in) users can by default access only a few of the features, in particular they will have a read-only access to the resources. You will need to configure authentication and grant additional permissions to authenticated users to see the full set of features.
Enjoy!
See also: TracInstallPlatforms, TracGuide, TracUpgrade